With its 2160 liters of liquid helium about to run out, the Herschel Space Observatory will, by the end of March, become just another piece of space junk.
In January's Physics World, Steve Eales, a University of Cardiff astronomer who leads one of the telescope's largest surveys, explains how this space facility has advanced our understanding of star and galaxy formation.
Submillimeter wavelength astronomy -- the kind of astronomy that the European Space Agency's Herschel Space Observatory has been undertaking since blast off in May 2009 -- lets us observe fundamental astronomical events, reaching parts of the universe that optical light cannot.
As Eales writes, "In peering into the big clouds of gas and dust that are the 'maternity wards' of stars and then detecting the submillimeter light emitted from the dust around the newly formed stars, Herschel is doing much to study star formation, which is one of astronomy's 'big questions'."
Held in place by the gravitational forces between the Earth and the Sun, at some 1.6 million kilometers from us, Herschel has been able to detect faint submillimeter radiation from 10 billion years back in time.
Eales remarks on the pace at which our understanding of the universe is advancing thanks to the observatory, which was named after the German-born astronomer William Herschel, who discovered infrared radiation and the planet Uranus, with help from his sister Caroline.
Recalling whole nights spent looking for one new galaxy with its submillimeter predecessor -- the James Clerk Maxwell Telescope on Mauna Kea, Hawaii -- Eales describes how he recently turned up 7000 new galaxies in barely 16 hours using Herschel data.
The 2160 liters of helium that Herschel blasted off with has kept the observatory cold enough to ensure that the heat given off by its own machinery doesn't confuse its readings.
This March, however, the helium will run out and Herschel will be defunct. But, as Eales writes, "the treasure trove of Herschel data will be picked through by astronomers for years to come".
Also in this issue:
* How to be blind: Although researchers often use "double-blind" studies to try to remove experimenter bias, science writer Brian Clegg looks at cases where physicists have not been as rigorous as they should be.
* Change of type: Duncan Steele explains how the LaTeX typesetting language -- a tool used by many physicists to write academic papers because of its equation-creating capability -- is struggling to adapt to the challenges of the tablet age, writes Duncan Steele.
* Supporting innovation: Following a trip to Ethiopia, Joe Winters describes the challenges facing physics entrepreneurs in one of the world's poorest countries
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